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dissipates
Latent heat of condensation.
Water vapour turns into liquid water when it condenses
So, steam must lose its heat of vaporization. Think about how it would lose it. Where would all that energy go? It condenses by inputting all the potential energy it has by being a gas into the skin of the person who touches it. Therefore even though steam only has slightly more kinetic energy than almost boiling water, it has a lot more total energy.
yes
Yes, as water boils the temperature of the boiling water no longer rises. The energy from the heat source that is boiling the water is however STILL there. What happens is that this energy is taken away by the water vapor leaving the boiling water surface. This energy is called "LATENT HEAT". The latent heat is given up again when the water vapor condenses back to liquid water so the water vapor caries the heat from one place to another. It is this energy that powers Hurricanes.
The evaporation of water by boiling is the transfer of thermal energy (radiation or convection) to the molecules which form water vapor. The energy is the same, but it changes from kinetic to potential energy. As the water vapor gives up heat by conduction in the air, the water again condenses (dew, rain, ice, snow).
dissipates
The lid is cooler than the steam (water vapor) produced by boiling the water. When the water vapor contacts that cooler surface, it condenses into liquid water.
It condenses forming water.
It condenses forming water.
evaporates and then condenses as pure water
when hot water and cold water are mixed together then the energy is transfered from hotwater to cold water
Each gas condenses at a different temp. as for water vapor it condenses at 212F or 100C
When water vapor loses energy it "turns" into a liquid
True. When water vapor condenses, it releases a significant amount of latent heat energy. In the context of hurricanes, this energy is a crucial factor that helps to fuel their growth and intensity. As the warm water evaporates and condenses, it releases energy that contributes to the formation and strengthening of the storm.
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